RU144017U1 - CEPTIC - Google Patents

Abstract

1. A septic tank containing a plastic case in the form of a rectangular finned vessel on all sides with inlet and outlet nozzles, having in its upper part loading necks equipped with covers, and divided along the direction of the liquid into the receiving chamber, the settling chamber and the outlet chamber with vertical partitions with through overflow openings, wherein the outlet chamber is equipped with a biofilter connected to the outlet by means of a corrugated pipe, characterized in that inside the through overflow openings For the vertical partitions, there are sewer corners connected from the receiving chamber and the settling chamber with sewer pipes oriented vertically in the direction of the base of the casing and made in such a way that their inlet openings are located below the central level of the internal volume of the casing. 2. Septic tank according to claim 1, characterized in that the overflow holes are located at opposite ends of the partitions relative to the adjacent walls of the housing. The septic tank according to claim 1, characterized in that the biofilter is made in the form of a vertical cylinder, passing in the lower part into a truncated cone. The septic tank according to claim 1, characterized in that openings closed with a grid are located on the upper and lower planes of the biofilter. The septic tank according to claim 1, characterized in that the tubular floating load is placed in the biofilter.

Description

The utility model relates to structures for biological, mechanical treatment of domestic wastewater and can be used in detached houses of individual buildings.

A septic tank is known (see, for example: http://www.septiki-triton.ru/septic-tank publication date 04/30/2013) containing a plastic case in the form of a rectangular finned vessel on all sides, with inlet and outlet nozzles having the top of the filler neck, equipped with covers, and divided along the liquid into the inlet chamber, settling chamber and outlet chamber with vertical partitions with through overflow openings, while the outlet chamber is equipped with a biofilter connected to the outlet pipe by means of a corrugated pipe s. The biofilter is made in a cylindrical shape with bevels in the lower part, has small slots in it and is connected to the outlet pipe by means of a corrugated pipe on which small holes are located. Inside the biofilter is a plastic chip, on the surface of which colonies of microorganisms are collected.

In the known design of the septic tank, overflow openings in the vertical partitions are not lower than the central level of the body volume, which is due to the high accumulation of heavy fractions in the lower part of the body. As a result, there is no possibility of fluid intake below the central level of the body volume. This significantly reduces the productivity of the well-known septic tank in conditions of infrequent use of the bathroom, which is important, for example, for owners of country cottages during their seasonal use. In addition, the disadvantages of the known solutions are: frequent clogging of the slits of the biofilter and the corrugated pipe, a small surface area of the chips for microorganisms, and the possibility of transfusion of chips into other chambers of the septic tank during volley discharge.

The technical result of this utility model is to increase the operational characteristics of the septic tank, which consists in increasing the efficiency of the performance of the septic tank, as well as at the same time increasing the degree of wastewater treatment.

The claimed technical result is achieved by the fact that the septic tank contains a plastic casing in the form of a rectangular finned vessel on all sides, with inlet and outlet pipes, having in their upper part loading necks, equipped with covers, and divided along the course of the fluid flow into the receiving chamber, a settling chamber and an output chamber with vertical partitions with through overflow openings, wherein the output chamber is equipped with a biofilter with a typical floating load. Moreover, inside the through overflow openings of the vertical partitions, there are sewer corners connected from the side of the receiving chamber and the settling chamber with sewer pipes oriented vertically in the direction of the base of the casing and made so that their inlet openings are located below the central level of the internal volume of the casing.

The specified location inside the overflow openings of the partitions of the sewer corners, with pipes inserted in them, allows the intake of liquid below the central level of the volume of the housing, and also creates a longer path for the passage of liquid, as a result of which the liquid is better cleaned of suspended particles.

Moreover, in special cases of the septic tank:

Overflow openings can be located at opposite ends of the partitions relative to the adjacent walls of the housing, which further increases the fluid path.

The biofilter can be made in the form of a vertical cylinder, passing in the lower part into a truncated cone. This form of the biofilter allows you to disperse the flow rate of wastewater at the entrance to the biofilter at the maximum volley discharge, which contributes to the uniform exit of purified water from the septic tank, as well as the effective loss of inactive biofilm from the biofilter to the bottom of the septic tank.

To prevent the loading from moving to other chambers of the septic tank, openings closed with a grid can be made in the upper and lower planes of the biofilter with the loading.

Floating loading in the biofilter can be made tubular, due to which the surface for the location of microorganisms increases, which contributes to better wastewater treatment.

The essence of the utility model is illustrated by drawings, where in FIG. 1 shows a top view of a septic tank; in FIG. 2 is a section AA of FIG. 1; FIG. 3 is a view B of FIG. 2; in FIG. 4 is a cross-sectional view of a floating loading member.

The septic tank has a rectangular housing with mouths 1 located in its upper part with covers 2. The upper part of the housing, on the side of its wide walls, has bevels 3 with protrusions 4, on which sewer turning corners or outlet pipes can be installed (in the drawings shown), depending on the complexity of the terrain. On both wide walls of the body, the upper part and the bottom there is a transverse ribbing 5. On the narrow walls of the body there are horizontal stiffeners 6.

An inlet pipe 7 is installed on one of the narrow walls. An outlet pipe is installed on the opposite wall from the location of the inlet pipe 8. The inner space of the septic tank is divided by plastic partitions 9 made of sheet plastic into three chambers: a receiving chamber 10, a settling chamber 11 and output chamber 12. On the partitions 9 there are through overflow openings into which the sewer corners 13 are inserted, and the sewer pipes 14 are inserted into the corners themselves. The partitions 9 are rigidly fixed to the walls and bottom to housing by extrusion welding, which ensures tightness between the chambers.

In the output chamber 12 is a biofilter 15, which is a vertical cylinder, passing in the lower part into a truncated cone. On the upper and lower planes of the biofilter there are openings (not shown in the drawings), which, after being placed in the biofilter, are closed by a net (not shown in the drawings), which delays the floating load from entering the main body, but freely passes water. The biofilter 15 is rigidly welded to the partition 9 and to the inner part of the housing by extrusion welding. From the biofilter comes the outlet pipe 8, which has a grid at the entrance that delays the floating load from leaving the septic tank. The outlet pipe 8 can be made with small holes (not shown in the drawings) in order to keep the water in the septic tank for as long as possible and, therefore, to be more efficiently cleaned.

The septic tank is made of plastic by rotational molding, which eliminates the presence of seams and increases the tightness of the body.

The claimed utility model works as follows.

Wastewater from a residential building through a sewer pipe enters through the inlet pipe 7 to the septic tank 10, where fermentation and separation of domestic wastewater into organic and inorganic parts and sedimentation of solid inorganic substances that are not decomposable to the bottom takes place. Then the clarified water moves through the internal overflow system into the settling chamber 11, where fermentation and clarification of organic substances also take place. From the settling chamber, water enters the outlet chamber 12, where it is further purified by the method of splitting solid particles. Next, the wastewater enters the biofilter 15 with a floating charge, due to which various suspensions are retained in the tank and the final water purification takes place, after which the purified water is sent through the outlet pipe 8 to the soil, or undergoes additional purification in the infiltrator.

The use of the proposed design as a treatment plant provides a high degree of wastewater treatment (up to 80%) and a high productivity of the device.

Claims (5)

1. A septic tank containing a plastic case in the form of a rectangular finned vessel on all sides with inlet and outlet nozzles, having in its upper part loading necks equipped with covers, and divided along the direction of the liquid into the receiving chamber, the settling chamber and the outlet chamber with vertical partitions with through overflow openings, wherein the outlet chamber is equipped with a biofilter connected to the outlet by means of a corrugated pipe, characterized in that inside the through overflow openings For the vertical partitions there are sewer corners connected from the receiving chamber and the settling chamber with sewer pipes oriented vertically in the direction of the base of the casing and made in such a way that their inlet openings are located below the central level of the internal volume of the casing. 2. The septic tank according to claim 1, characterized in that the overflow holes are located at opposite ends of the partitions relative to the adjacent walls of the housing. 3. The septic tank according to claim 1, characterized in that the biofilter is made in the form of a vertical cylinder, passing in the lower part into a truncated cone. 4. The septic tank according to claim 1, characterized in that openings closed with a grid are located on the upper and lower planes of the biofilter. 5. The septic tank according to claim 1, characterized in that the tubular floating load is placed in the biofilter.